Modulation of diabetic kidney disease markers by an antagonist of p75NTR in streptozotocin-treated mice.

Two therapeutic agents targeting p75NTR pathways have been recently developed to alleviate retinopathy and bladder dysfunction in diabetes mellitus (DM), namely the small molecule p75NTR antagonist THX-B and a monoclonal antibody (mAb) that neutralizes the receptor ligand proNGF. We herein explore these two components in the context of diabetic kidney disease (DKD). Streptozotocin-injected mice were treated for 4 weeks with THX-B or anti-proNGF mAb. Kidneys were taken for quantification of microRNAs and mRNAs by RT-qPCR and for detection of proteins by immunohistochemistry, immunoblotting and ELISA. Blood was sampled to measure plasma levels of urea, creatinine, and albumin. DM led to increases in plasma concentrations of urea and creatinine and decreases in plasma albumin. Receptor p75NTR was expressed in kidneys and its expression was decreased by DM. All these changes were reversed by THX-B treatment while the effect of mAb was less pronounced. MicroRNAs tightly linked to DKD (miR-21-5p, miR-214-3p and miR-342-3p) were highly expressed in diabetic kidneys compared to healthy ones. Also, miR-146a, a marker of kidney inflammation, and mRNA levels of Fn-1 and Nphs, two markers of fibrosis and inflammation, were elevated in DM. Treatments with THX-B or mAb partially or completely reduced the expression of the aforementioned microRNAs and mRNAs. P75NTR antagonism and proNGF mAb might constitute new therapeutic tools to treat or slow down the progression of kidney disease in DM, along with other diabetic related complications. The translational potential of these strategies is currently being investigated.

Prodrug chemotherapeutics bypass p-glycoprotein resistance and kill tumors in vivo with high efficacy and target-dependent selectivity.

Doxorubicin intercalates into DNA, causes double-strand breaks, and leads to apoptotic death. Limitations to the efficacy and therapeutic index of doxorubicin include poor tumor selectivity, high systemic toxicity, and the development of resistance, especially p-glycoprotein (p-gp)-mediated. We chemically coupled doxorubicin to a monoclonal antibody directed to the insulin-like growth factor-1 receptor, a receptor highly overexpressed in most tumors and validated as a tumor target. The prodrug conjugate bounded to tumor cells selectively, and accumulated efficiently and only in receptor-expressing cells. The conjugate was processed to release free doxorubicin inside target cells leading to selective toxicity, had >200-fold improved therapeutic index, and in vivo reduced tumor load with no systemic toxicity. Importantly, the prodrug conjugate is not subject to p-gp efflux and can bypass resistance in vivo. Our studies define a strategy to develop improved and more selective anticancer agents.

A ligand of the p65/p95 receptor suppresses perforant path kindling, kindling-induced mossy fiber sprouting, and hilar area changes in adult rats.

Kindling, an animal model of epilepsy, results in an increased volume of the hilus of the dentate gyrus and sprouting of the mossy fiber pathway in the hippocampus. Our previous studies have revealed that chronic infusion of neurotrophins can regulate not only seizure development, but also these kindling-induced structural changes. Kindling, in turn, can alter the expression of neurotrophins and their receptors. We previously showed that intraventricular administration of a synthetic peptide that interferes with nerve growth factor stability and thus its binding to TrkA and p75(NTR) receptors suppressed kindling and sprouting. However, the precise involvement of TrkA, p75(NTR), and downstream signaling effectors of neurotrophins on kindling, sprouting and hilar changes are unknown. One of these downstream effectors is Ras. In the present study, we find that intraventricular infusion of the synthetic peptide Reo3Y, which binds to p65/p95 receptors and causes a rapid inactivation of Ras protein, impairs development of perforant path kindling, reduces the growth in afterdischarge duration, blocks kindling-induced mossy fiber sprouting in area CA3 of hippocampus and in inner molecular layer of the dentate gyrus, and prevents kindling-induced increases in hilar area. These results are consistent with a mediation of neurotrophin effects on kindling, hilar area, and axonal sprouting via Trk receptors, and suggest important roles for Ras in kindling and in kindling-induced structural changes.

Prognostic value of TrkA protein detection by monoclonal antibody 5C3 in neuroblastoma.

The effects of nerve growth factor, a neurotrophin mediating growth and differentiation of neural crest-derived cells, are mediated by the receptor TrkA. TrkA mRNA expression has been associated with a good prognosis in human neuroblastoma (NB). We describe the use of monoclonal antibody 5C3 in detecting TrkA expression by immunohistochemistry in NB and other malignant tumors. A murine anti-TrkA IgG1 monoclonal antibody, 5C3, was generated against the extracellular domain of human p140(TrkA). 5C3 detected a 140-kDa band on Western blots. 5C3 was optimized for immunostaining and used to detect p140(TrkA) on 113 frozen NB samples and 42 samples from nine other malignancies. MOPC21 IgG1 antibody was used as a control. Results by immunohistochemistry were compared to TrkA expression assessed by reverse transcription-PCR and Western analysis. The prognostic value of TrkA expression by these methods was evaluated and compared to other known prognostic variables, including stage, age, and MYCN copy number. TrkA expression was detected by immunohistochemistry in 73 of the 113 NB tumor specimens and strongly correlated with nonmetastatic disease. TrkA expression was specific for NB among small round blue cell tumors. Both TrkA expression by immunohistochemistry and localized/4s disease correlated with survival. Tumors from 55 of 60 patients with localized/4s NB exhibited homogeneous or a mixed pattern of TrkA immunohistochemistry, whereas only 18 of 53 patients with stage 4 NB were immunoreactive. Detection of TrkA by reverse transcription-PCR and Western analysis was much more sensitive and no longer correlated with survival. 5C3 enables rapid detection of p140(TrkA) by immuno-histochemistry and identifies patients more likely to have localized NB with a favorable clinical outcome. Lack of TrkA expression is correlated with metastatic, malignant NB. A subset of patients with NB, however, died of aggressive metastatic disease despite TrkA expression. As a mimic of nerve growth factor, 5C3 may be useful in the study of TrkA-expressing tumors.